What is the definition and importance of explicit memory?

Explicit memory, also known as declarative memory, refers to the conscious recollection of past events, facts, and experiences. It involves the deliberate retrieval and explicit expression of information that has been previously learned and stored in our memory. This type of memory is essential for our daily functioning, as it allows us to remember important details, such as names, dates, and places, and use this information to make decisions and solve problems. In this article, we will explore the definition and importance of explicit memory, and how it differs from other types of memory. Understanding this type of memory can provide valuable insights into how our brains store and retrieve information, and ultimately, how we learn and make sense of the world around us.

Explicit memory is the conscious, intentional recollection of previous experiences and information. People use explicit memory throughout the day, such as remembering the time of an appointment or recollecting an event from years ago.

Explicit memory involves conscious recollection, compared with implicit memory which is an unconscious, nonintentional form of memory. Remembering a specific driving lesson is an example of explicit memory, while improved driving skill as a result of the lesson is an example of implicit memory.

 

Types

Episodic memory, a part of autobiographical memory, consists of the recollection of singular events in the life of a person. It is the memory of life experiences centered on oneself. Episodic memory is necessary for “time traveling”: remembering your past and imagining your future. It is considered a uniquely human quality that depends on maturation and therefore won’t be found in babies and young children.

Semantic memory consists of all explicit memory that is not autobiographical. Examples of semantic memory is knowledge of historical events and figures; the ability to recognize friends and acquaintances; and information learned in school, such as specialized vocabularies and reading, writing and mathematics.

The neural basis of episodic and semantic memory is not yet known today. However, the Scientists E. Tulving and R.F. Thompson suggest that episodic memory might be dependent on the right hemisphere, and semantic memory on the left hemisphere.

 

Encoding and retrieval

The encoding of explicit memory depends on conceptually driven, top-down processing, in which a subject reorganizes the data to store it. The subject makes associations with previously related stimuli or experiences. The later recall of information is thus greatly influenced by the way in which the information was originally processed. The depth-of-processing effect is the improvement in subsequent recall of an object about which a person has given thought to its meaning or shape.

Simply put: To create explicit memories, you have to do something with your experiences: think about them, talk about them, write them down, study them, etc. The more you do, the better you will remember.

Retrieval: Because a person has played an active role in processing explicit information, the internal cues that were used in processing it, can also be used to initiate spontaneous recall. When someone talks about an experience, the words they use will help when they try to remember this experience at a later date.

 

Neural structures involved

Several neural structures are proposed to be involved in explicit memory. Most are in the temporal lobe or closely related to it, such as the amygdala, the hippocampus, the rhinal cortex in the temporal lobe, and the prefrontal cortex. Nuclei in the thalamus also are included, because many connections between the prefrontal cortex and temporal cortex are made through the thalamus.

The regions that make up the explicit memory circuit receive input from the neocortex and from brainstem systems, including acetylcholine, serotonin, and noradrenaline systems.

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